A Compositional Framework for On-the-Fly LTLf Synthesis

Yongkang Li; Shengping Xiao; Shufang Zhu; Jianwen Li; Geguang Pu

doi:10.3233/FAIA250999

A Compositional Framework for On-the-Fly LTL_f Synthesis

Yongkang Li
, Shengping Xiao
, Shufang Zhu
, Jianwen Li^*
, Geguang Pu

^*Corresponding author for this work

Software Engineering Institute

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Reactive synthesis from Linear Temporal Logic over finite traces (LTLf) can be reduced to a two-player game over a Deterministic Finite Automaton (DFA) of the LTLf specification. The primary challenge here is DFA construction, which is 2EXPTIME-complete in the worst case. Existing techniques either construct the DFA compositionally before solving the game, leveraging automata minimization to mitigate state-space explosion, or build the DFA incrementally during game solving to avoid full DFA construction. However, neither is dominant. In this paper, we introduce a compositional on-the-fly synthesis framework that integrates the strengths of both approaches, focusing on large conjunctions of smaller LTLf formulas common in practice. This framework applies composition during game solving instead of automata (game arena) construction. While composing all intermediate results may be necessary in the worst case, pruning these results simplifies subsequent compositions and enables early detection of unrealizability. Specifically, the framework allows two composition variants: pruning before composition to take full advantage of minimization or pruning during composition to guide on-the-fly synthesis. Compared to state-of-the-art synthesis solvers, our framework is able to solve a notable number of instances that other solvers cannot handle. A detailed analysis shows that both composition variants have unique merits.

Original language	English
Title of host publication	ECAI 2025 - 28th European Conference on Artificial Intelligence, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025 - Proceedings
Editors	Ines Lynce, Nello Murano, Mauro Vallati, Serena Villata, Federico Chesani, Michela Milano, Andrea Omicini, Mehdi Dastani
Publisher	IOS Press BV
Pages	1711-1718
Number of pages	8
ISBN (Electronic)	9781643686318
DOIs	https://doi.org/10.3233/FAIA250999
State	Published - 21 Oct 2025
Event	28th European Conference on Artificial Intelligence, ECAI 2025, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025 - Bologna, Italy Duration: 25 Oct 2025 → 30 Oct 2025

Publication series

Name	Frontiers in Artificial Intelligence and Applications
Volume	413
ISSN (Print)	0922-6389
ISSN (Electronic)	1879-8314

Conference

Conference	28th European Conference on Artificial Intelligence, ECAI 2025, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025
Country/Territory	Italy
City	Bologna
Period	25/10/25 → 30/10/25

Access to Document

10.3233/FAIA250999

Cite this

Li, Y., Xiao, S., Zhu, S., Li, J., & Pu, G. (2025). A Compositional Framework for On-the-Fly LTL_f Synthesis. In I. Lynce, N. Murano, M. Vallati, S. Villata, F. Chesani, M. Milano, A. Omicini, & M. Dastani (Eds.), ECAI 2025 - 28th European Conference on Artificial Intelligence, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025 - Proceedings (pp. 1711-1718). (Frontiers in Artificial Intelligence and Applications; Vol. 413). IOS Press BV. https://doi.org/10.3233/FAIA250999

Li, Yongkang ; Xiao, Shengping ; Zhu, Shufang et al. / A Compositional Framework for On-the-Fly LTL_f Synthesis. ECAI 2025 - 28th European Conference on Artificial Intelligence, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025 - Proceedings. editor / Ines Lynce ; Nello Murano ; Mauro Vallati ; Serena Villata ; Federico Chesani ; Michela Milano ; Andrea Omicini ; Mehdi Dastani. IOS Press BV, 2025. pp. 1711-1718 (Frontiers in Artificial Intelligence and Applications).

@inproceedings{455da36071454a029f8d488806b01540,

title = "A Compositional Framework for On-the-Fly LTLf Synthesis",

abstract = "Reactive synthesis from Linear Temporal Logic over finite traces (LTLf) can be reduced to a two-player game over a Deterministic Finite Automaton (DFA) of the LTLf specification. The primary challenge here is DFA construction, which is 2EXPTIME-complete in the worst case. Existing techniques either construct the DFA compositionally before solving the game, leveraging automata minimization to mitigate state-space explosion, or build the DFA incrementally during game solving to avoid full DFA construction. However, neither is dominant. In this paper, we introduce a compositional on-the-fly synthesis framework that integrates the strengths of both approaches, focusing on large conjunctions of smaller LTLf formulas common in practice. This framework applies composition during game solving instead of automata (game arena) construction. While composing all intermediate results may be necessary in the worst case, pruning these results simplifies subsequent compositions and enables early detection of unrealizability. Specifically, the framework allows two composition variants: pruning before composition to take full advantage of minimization or pruning during composition to guide on-the-fly synthesis. Compared to state-of-the-art synthesis solvers, our framework is able to solve a notable number of instances that other solvers cannot handle. A detailed analysis shows that both composition variants have unique merits.",

author = "Yongkang Li and Shengping Xiao and Shufang Zhu and Jianwen Li and Geguang Pu",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors.; 28th European Conference on Artificial Intelligence, ECAI 2025, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025 ; Conference date: 25-10-2025 Through 30-10-2025",

year = "2025",

month = oct,

day = "21",

doi = "10.3233/FAIA250999",

language = "英语",

series = "Frontiers in Artificial Intelligence and Applications",

publisher = "IOS Press BV",

pages = "1711--1718",

editor = "Ines Lynce and Nello Murano and Mauro Vallati and Serena Villata and Federico Chesani and Michela Milano and Andrea Omicini and Mehdi Dastani",

booktitle = "ECAI 2025 - 28th European Conference on Artificial Intelligence, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025 - Proceedings",

address = "荷兰",

}

Li, Y, Xiao, S, Zhu, S, Li, J & Pu, G 2025, A Compositional Framework for On-the-Fly LTL_f Synthesis. in I Lynce, N Murano, M Vallati, S Villata, F Chesani, M Milano, A Omicini & M Dastani (eds), ECAI 2025 - 28th European Conference on Artificial Intelligence, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025 - Proceedings. Frontiers in Artificial Intelligence and Applications, vol. 413, IOS Press BV, pp. 1711-1718, 28th European Conference on Artificial Intelligence, ECAI 2025, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025, Bologna, Italy, 25/10/25. https://doi.org/10.3233/FAIA250999

A Compositional Framework for On-the-Fly LTL_f Synthesis. / Li, Yongkang; Xiao, Shengping; Zhu, Shufang et al.
ECAI 2025 - 28th European Conference on Artificial Intelligence, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025 - Proceedings. ed. / Ines Lynce; Nello Murano; Mauro Vallati; Serena Villata; Federico Chesani; Michela Milano; Andrea Omicini; Mehdi Dastani. IOS Press BV, 2025. p. 1711-1718 (Frontiers in Artificial Intelligence and Applications; Vol. 413).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - A Compositional Framework for On-the-Fly LTLf Synthesis

AU - Li, Yongkang

AU - Xiao, Shengping

AU - Zhu, Shufang

AU - Li, Jianwen

AU - Pu, Geguang

PY - 2025/10/21

Y1 - 2025/10/21

N2 - Reactive synthesis from Linear Temporal Logic over finite traces (LTLf) can be reduced to a two-player game over a Deterministic Finite Automaton (DFA) of the LTLf specification. The primary challenge here is DFA construction, which is 2EXPTIME-complete in the worst case. Existing techniques either construct the DFA compositionally before solving the game, leveraging automata minimization to mitigate state-space explosion, or build the DFA incrementally during game solving to avoid full DFA construction. However, neither is dominant. In this paper, we introduce a compositional on-the-fly synthesis framework that integrates the strengths of both approaches, focusing on large conjunctions of smaller LTLf formulas common in practice. This framework applies composition during game solving instead of automata (game arena) construction. While composing all intermediate results may be necessary in the worst case, pruning these results simplifies subsequent compositions and enables early detection of unrealizability. Specifically, the framework allows two composition variants: pruning before composition to take full advantage of minimization or pruning during composition to guide on-the-fly synthesis. Compared to state-of-the-art synthesis solvers, our framework is able to solve a notable number of instances that other solvers cannot handle. A detailed analysis shows that both composition variants have unique merits.

AB - Reactive synthesis from Linear Temporal Logic over finite traces (LTLf) can be reduced to a two-player game over a Deterministic Finite Automaton (DFA) of the LTLf specification. The primary challenge here is DFA construction, which is 2EXPTIME-complete in the worst case. Existing techniques either construct the DFA compositionally before solving the game, leveraging automata minimization to mitigate state-space explosion, or build the DFA incrementally during game solving to avoid full DFA construction. However, neither is dominant. In this paper, we introduce a compositional on-the-fly synthesis framework that integrates the strengths of both approaches, focusing on large conjunctions of smaller LTLf formulas common in practice. This framework applies composition during game solving instead of automata (game arena) construction. While composing all intermediate results may be necessary in the worst case, pruning these results simplifies subsequent compositions and enables early detection of unrealizability. Specifically, the framework allows two composition variants: pruning before composition to take full advantage of minimization or pruning during composition to guide on-the-fly synthesis. Compared to state-of-the-art synthesis solvers, our framework is able to solve a notable number of instances that other solvers cannot handle. A detailed analysis shows that both composition variants have unique merits.

UR - https://www.scopus.com/pages/publications/105024432454

U2 - 10.3233/FAIA250999

DO - 10.3233/FAIA250999

M3 - 会议稿件

AN - SCOPUS:105024432454

T3 - Frontiers in Artificial Intelligence and Applications

SP - 1711

EP - 1718

BT - ECAI 2025 - 28th European Conference on Artificial Intelligence, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025 - Proceedings

A2 - Lynce, Ines

A2 - Murano, Nello

A2 - Vallati, Mauro

A2 - Villata, Serena

A2 - Chesani, Federico

A2 - Milano, Michela

A2 - Omicini, Andrea

A2 - Dastani, Mehdi

PB - IOS Press BV

T2 - 28th European Conference on Artificial Intelligence, ECAI 2025, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025

Y2 - 25 October 2025 through 30 October 2025

ER -

Li Y, Xiao S, Zhu S, Li J , Pu G. A Compositional Framework for On-the-Fly LTL_f Synthesis. In Lynce I, Murano N, Vallati M, Villata S, Chesani F, Milano M, Omicini A, Dastani M, editors, ECAI 2025 - 28th European Conference on Artificial Intelligence, including 14th Conference on Prestigious Applications of Intelligent Systems, PAIS 2025 - Proceedings. IOS Press BV. 2025. p. 1711-1718. (Frontiers in Artificial Intelligence and Applications). doi: 10.3233/FAIA250999